JP3851555B2 - Optical pickup, information processing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an optical pickup or the like used in an information processing apparatus that optically performs recording / reproduction / erasure of information.
[0002]
[Prior art]
When a plurality of recording media that perform recording and reproduction at different wavelengths are recorded and reproduced by a single device, an optical pickup having a plurality of light sources having different wavelengths corresponding to the type of the recording medium is generally used. FIG. 9 shows a configuration of a conventional optical pickup. Reference numerals 901 and 902 denote light source units having different wavelengths. For example, although not shown, a semiconductor laser, a hologram, a photodetector, etc., which are examples of a light source, are integrally configured. The light emitted from the light source unit 901 passes through a beam splitter (hereinafter referred to as “BS”) 903 and is then collected on a recording medium 905 by a condenser lens 904. The light reflected by the recording medium 905 follows the reverse optical path and enters the light source unit 901. The light incident on the light source unit 901 is diffracted by a hologram built in the light source unit, and various signals such as focus, tracking, and RF are detected by a photodetector in the light source unit. However, the internal configuration of the light source units 901 and 902 and the detection method of various signals are not essential components of the present technology and the present invention to be described later, and various configurations are already known, and thus description thereof is omitted. To do.
[0003]
The light emitted from the light source unit 902 is reflected by the BS 903 and then condensed on the recording medium 905 by the condenser lens 904. Reflected light from the recording medium 905 follows the reverse optical path and enters the light source unit 902, and various signals are detected in the same manner as the light source unit 901. The BS 903 combines and separates light from the light source unit 901 and the light source unit 902. A band-pass filter that controls reflection and transmission of light according to wavelength, a polarization beam splitter that controls polarization, and transmitted light at an arbitrary ratio. A half mirror or the like that separates reflected light is generally used. Each of the light source units 901 and 902 is connected with a drive circuit 906 and a control circuit 907, and a drive circuit 908 and a control circuit 909. The drive circuit is a light source in the light source unit in accordance with a signal from the control circuit. A current is supplied to the semiconductor laser to control light emission.
[0004]
[Problems to be solved by the invention]
In this conventional configuration, each of the light source units is provided with a drive circuit and a control circuit, so that the circuit amount of the entire optical pickup is large, and there are problems such as an increase in cost and an increase in the size of the apparatus. It was.
[0005]
An object of the present invention is to realize an optical pickup or the like that drives a plurality of light sources with a small circuit amount and has high-performance driving characteristics.
[0006]
[Means for Solving the Problems]
  In order to achieve the above object, the first aspect of the present invention (corresponding to claim 1)An optical pickup for recording and reproducing information on each of a plurality of recording media,
A plurality of light sources corresponding to the plurality of recording media;
A plurality of drive circuits for driving each of the plurality of light sources;
Switching means for switching and outputting an external signal to any of the drive circuits;
A control circuit for controlling the drive circuit and the switching means,
The plurality of drive circuits and the switching unit are configured integrally.
The length of the transmission path between each of the plurality of drive circuits and the switching means is substantially the same,
And the length of the transmission path between the switching means and the plurality of light sources is shorter as the light source has a shorter wavelength among the plurality of light sources.It is an optical pickup.
[0007]
  The second aspect of the present invention (corresponding to claim 2)A first light source for recording information on a recordable recording medium;
A second light source for reproducing information from a recording medium on which information is recorded;
A first drive circuit for driving the first light source;
A second drive circuit for driving the second light source;
Switching means for switching and outputting an external signal to the first drive circuit or the second drive circuit;
A control circuit for controlling the first drive circuit, the second drive circuit, and the switching means;
The first drive circuit, the second drive circuit, and the switching unit are configured integrally.
The length of the transmission path between the first drive circuit and the switching means and the length of the transmission path between the second drive circuit and the switching means are substantially the same,
And the length of the transmission path between the switching means and the first light source is shorter than the length of the transmission path between the switching means and the second light source.It is an optical pickup.
[0008]
  The third invention (corresponding to claim 3)An optical pickup according to claim 1 or 2,
Demodulation means for demodulating a signal obtained from the optical pickup;
Information processing apparatus comprising modulation means for modulating a signal output to the optical pickupIt is.
[0022]
As a result, it is possible to drive a plurality of light sources with a small circuit amount and realize high-performance drive characteristics.
[0023]
In addition, a plurality of light sources can be driven with a small number of drive circuits, and high-performance drive characteristics can be realized. Further, by integrally configuring the switching means, the drive circuit, and the light source, there is an effect that the optical pickup and the information processing apparatus can be further reduced in size, cost, and performance.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the optical pickup of the present invention will be described with reference to the drawings, and the embodiments of the optical information recording / reproducing information of the present invention will be described.
[0025]
(Embodiment 1)
FIG. 1 is a configuration diagram of the optical pickup according to the first embodiment of the present invention. Reference numerals 101 and 102 denote light source units having light sources having different wavelengths, and the light source unit 101 has a shorter wavelength than the light source unit 102. Reference numeral 103 denotes a BS, 104 denotes a condenser lens, 105 denotes a recording medium, 106 denotes a switching unit, 107 denotes a drive circuit, and 108 denotes a control circuit. In the operation of each means described above, the optical information recording / reproducing operation is the same as that of the conventional example, and the description thereof is omitted. The switching unit 106 performs an operation of switching the signal from the drive circuit 107 to the light source unit 101 or the light source unit 102 according to the type of the recording medium 105.
[0026]
With this configuration, it is possible to drive both the light source unit 101 and the light source unit 102 by the single drive circuit 107 and the control circuit 108. Here, as shown in FIG. 1, the switching unit 106 is provided close to the light source unit 101 having a short wavelength so that the transmission path length between the switching unit 106 and the light source unit 101 is shortened.
[0027]
In general, when the drive signal is passed through the switching means 106, noise increases or impedance matching is lost and the drive waveform is distorted. This phenomenon becomes further disadvantageous when the distance between the switching means 106 and the light source is long due to the influence of the impedance of the wiring from the switching means 106 to each light source. Therefore, it is desirable that the distance between the switching unit 106 and each light source is short, but it is difficult to set the distances between all the light sources and the switching unit 106 short for a plurality of light sources. Therefore, it is desirable to arrange the switching means 106 close to a light source that needs to be driven with higher quality among a plurality of light sources, and to shorten the transmission path length.
[0028]
In the configuration of FIG. 1, when the wavelength of the light source of the light source unit 101 is λ1, the wavelength of the light source of the light source unit 102 is λ2, and the numerical aperture of the objective lens 104 is NA, the size of the spot condensed on the recording medium 105 is The light source unit 101 is proportional to λ1 / NA, and the light source unit 102 is proportional to λ2 / NA. Since the spot of the light source unit having a short wavelength (in this example, the light source unit 101) is smaller, it is possible to record / reproduce information with higher density, and the light source is required to have higher quality drive characteristics. .
[0029]
In this configuration, the switching unit 106 is provided in the vicinity of the light source unit 101 having a short wavelength and the transmission path length is shortened, thereby reducing the drive quality of the light source due to the switching unit and the wiring from the switching unit to the light source. Can be suppressed. This makes it possible to realize appropriate driving for each of a plurality of light sources that require different driving qualities because the wavelengths are different from each other. In this example, the case of two types of wavelengths has been described. However, the same applies to the case of λ1, λ2, λ3... Λn (n = 1, 2,...) And three or more types of wavelengths.
[0030]
Further, in this example, the configuration using the light source unit is shown, but the present invention is not limited to this configuration, and at least in the arrangement relationship between the plurality of light sources that emit light and the switching means, the wavelength is further increased. It goes without saying that the same effect can be obtained if the shorter light source is arranged close to each other and the length of the transmission path between the light source and the switching means is shortened.
[0031]
FIG. 2 shows another configuration example. In FIG. 2A, as in FIG. 1, the light source unit 101 is provided closer to the switching means 201 closer to the light source unit 102, and the transmission path length between the light source unit 101 and the switching means 201 is the light source unit. In this configuration, the switching unit 201 and the drive circuit 202 are configured as an integrated unit 203, which is shorter than the transmission path length between the switching unit 102 and the switching unit 201. In this configuration, in addition to the advantages of the configuration of FIG. 1, the switching unit 201 and the drive circuit 202 are integrally configured, so that the transmission path between the switching unit 201 and the drive circuit 202 is shorter and higher than the configuration of FIG. It can be realized with quality, and has the advantage that noise increase and deterioration of drive characteristics due to wiring and the like are reduced. The integration here is typically implemented by (1) mounting on the same printed circuit board, (2) hybrid IC, (3) LSI or the like.
[0032]
FIG. 2B is a configuration example in which the light source 204 and the switching means 207 in the light source unit 208 are integrally formed. In the light source unit 208, a light source 204, a hologram 206 that guides reflected light from the recording medium 105 to the photodetector 205, and a switching unit 207 that switches a light source driven by the drive circuit 107 are integrally configured. In this configuration, since the light source 204 and the switching unit 207 are integrated, the wiring between the light source 204 and the switching unit 207 can be realized with shorter and higher quality, and noise increase and deterioration of driving characteristics due to the wiring can be reduced. Has advantages. The configuration of the light source unit 208 is an example and is not limited to this configuration.
[0033]
In addition, the point of the present invention is that at least the light source 204 and the switching unit 207 are integrated, and the photodetector 205 and the hologram 206 do not need to be integrated with the switching unit 207. As shown in FIG. 2 (c), when the configuration satisfying FIGS. 2 (a) and 2 (b) is satisfied at the same time, that is, when the light source 209, the switching means 210 and the drive circuit 211 are integrated, FIG. Needless to say, it has the advantages of both a) and (b).
[0034]
The switching means is shown in the form of a switch for simplicity in the figure, but it is a mechanical switch as well as an electrical switch, such as a switch by a transistor or FET, an analog switch, or the like, which can switch a signal from the drive circuit. It goes without saying that the configuration does not matter.
[0035]
Further, when the wavelength of each light source is λ1 and λ2, and the transmission line length between each light source and the switching means is L1 and L2, respectively, when λ1 <λ2, L1 <L2, and the effect of the present invention is exhibited. Is done. The reason is as follows. That is, when the light source is viewed from the drive circuit electrically, the transmission path from the drive circuit (switching means, switching means) to the light source becomes a load. This load is mainly composed of a capacitance (hereinafter referred to as C) component and an (inductance (hereinafter referred to as L) component. The C component is mainly the rise time of the driving waveform of the light source, and the L component is the ringing waveform of the rising portion of the same waveform. Needless to say, it is desirable to have a small impact.
[0036]
The recording density of information on the recording medium depends on the size of the light spot formed on the recording medium by the condensing lens. The size of the light spot is equal to the wavelength of the light source when the numerical aperture NA of the condensing lens is equal. Proportional. For example, considering the case of two types of light sources λ1 and λ2 (λ1 <λ2), the light spot formed by the light source λ1 has a size of λ1 / λ2 with respect to λ2. This means that when information is recorded on the same track of the recording medium, the light source λ1 can record λ2 / λ1 times per track relative to λ2, and when the recording medium rotates at the same linear velocity, the light source λ1 This means that the transfer speed of information to be recorded on the recording medium is λ2 / λ1 times λ2. Information recording on the recording medium is performed by modulation of the light source by the driving circuit, and it is needless to say that the rise time of the driving waveform needs to be shortened in proportion to the transfer speed. Here, the rise time of the drive waveform is roughly proportional to the C component of the transmission line, but the C component of the transmission line is dominated by the capacitive component between the transmission line and the wiring such as the power supply and ground. It is proportional to the length of the transmission line. For this reason, by setting the length L1 of the transmission path of the light source λ1 to λ1 / λ2 of the length L2 of the transmission path of the light source λ2, it is possible to set the rise time corresponding to the transfer speed difference.
[0037]
In addition, the performance required for a light source with a short wavelength may be more severe due to optical factors in addition to circuit factors. In consideration of these factors, it is desirable to set L1 shorter than the above-described wiring allocation. There is a case. That is, when information is recorded by the light sources λ1 and λ2, the NA of the condenser lens is not the same, and the NA corresponding to the light source λ1 having a short wavelength is set larger than the NA of λ2, thereby further improving the recording density. There is a case to measure. In this case, since the ratio of the information transfer rate is larger than λ2 / λ1, the balance between the transfer rate and the rise time can be achieved by setting the rise time ratio L1 / L2 of the light source drive waveform smaller than λ1 / λ2. It will be taken.
[0038]
For the reasons described above, it is desirable to set the length of the transmission path from the switching means for both light sources having different wavelengths, under the condition of L1 / L2 ≦ λ1 / λ2, in view of the above contents.
[0039]
Although the case of two light sources has been described here, L1 / L3 ≦ λ1 / λ3,... L1 / L1 / L3 ≦ λ1 / λ3 also in the case of λ3,. The relationship is exactly the same as Ln ≦ λ1 / λn.
[0040]
In the above configuration example, the plurality of light sources or light source units are configured independently, but the present invention is not limited to this configuration. The same applies to the case where two or more light sources are provided in a single light source unit. In this case as well, the switching means is made closer to a light source having a short wavelength, and the transmission path length between the light source and the switching means is increased. It goes without saying that the superior effects of the present invention can be obtained by making the length shorter. In addition, although the configuration of the control circuit 108 is not mentioned, when the switching unit 201 and the control circuit 108 are integrally configured, in addition to the above advantages, there is an advantage that the circuit can be further downsized and stabilized. ing. Further, as shown in FIG. 2D, the same advantage can be obtained when the switching unit 201, the control circuit 108, and the drive circuit 202 are integrally formed.
[0041]
(Embodiment 2)
FIG. 3 is a configuration diagram of the optical pickup according to the second embodiment of the present invention. In the figure, the same or corresponding parts as those in FIGS. 1 and 2 are denoted by the same reference numerals, and detailed description thereof is omitted. Reference numeral 301 denotes a light source unit including the first light source of the present invention, and 302 denotes a light source unit including the second light source of the present invention. In FIG. 3A, light from the two light source units 301 and 302 is condensed on the recording medium 105 via the BS 303 and the condenser lens 104, and information is recorded and reproduced. Here, the light source unit 301 performs an information recording / reproducing operation, and the light source unit 302 performs only an information reproducing operation. At this time, the wavelength of the light source unit 301 and the wavelength of the light source unit 302 may be different from each other or the same.
[0042]
When the light source unit 301 and the light source unit 302 are compared, the light source unit 302 that performs only the reproduction operation is mostly driven at a constant output, but the light source unit 301 that performs the recording operation is modulated at high speed during recording. Therefore, high quality driving characteristics are required as compared with the light source unit 302. That is, a light source that performs only reproduction reproduces information by performing DC light emission with a constant light output, but a light source that performs recording needs to modulate the light source in accordance with the recorded information. The quality of the modulation waveform of the light source by the drive circuit largely depends on the L component and the C component of the transmission path from the drive circuit to the light source, but the reproduction light source that emits DC light is not significantly affected by the transmission path. For this reason, it is desirable to set the length of the transmission path of the recording light source short.
[0043]
In this configuration, the switching unit 106 is provided close to the light source unit 301 that performs recording, and the transmission line length between the switching unit 106 and the light source unit 301 is greater than the transmission line length between the switching unit 106 and the light source unit 302. Since the length is shortened, it is possible to suppress a reduction in drive quality of the light source unit 301 due to the switching means and the wiring from the switching means to the light source. Each of the light source units 302 can be driven well.
[0044]
FIG. 3B shows another configuration example, in which a light source unit 304 for recording and reproduction is further provided in the configuration of FIG. Here, the light source unit 302 is for reproduction, and 301 and 304 are for recording and reproduction. The light source unit 301 and the light source unit 304 have different wavelengths, and the light source unit 301 has a shorter wavelength than the light source unit 304. The three light source units 301, 302, and 304 are each selectively driven via the switching unit 307 by a drive signal from a single drive circuit 107. The switching unit 307 is provided closer to the recording / reproducing light source units 301 and 304 than the reproducing light source unit 302, and the transmission line length between the switching unit 307 and the light source units 301 and 304 is any switching unit 307. And the transmission line length between the light source unit 302 and the light source unit 302 is shorter.
[0045]
Further, the switching means 307 is provided closest to the light source unit 301 having a shorter wavelength among the recording / reproducing light source units 301 and 304, and the transmission line length between the switching means 307 and the light source unit 301 is the switching means. It is shorter than the transmission line length between 307 and the light source unit 304. As a result, the same effect as in the first embodiment is obtained.
[0046]
With this configuration, the recording / reproducing light source has better driving characteristics than the reproducing light source, and the recording / reproducing light source has a shorter wavelength and requires a better driving characteristic. It has an excellent effect that good driving characteristics can be realized. Although FIG. 3 illustrates the case where there are two or three light source units, the same is true when there are four or more light source units.
[0047]
FIG. 4 shows another configuration example. In the configuration of FIG. 4A, the switching unit 201 and the drive circuit 202 are integrally configured as in the first embodiment of FIG. Needless to say, the switching means 201 is provided in the vicinity of the light source unit 301 for recording / reproducing as in FIG. In this configuration, in addition to the advantages of FIG. 3, the transmission path between the switching means 201 and the drive circuit 202 can be realized with a shorter and higher quality than the configuration of FIG. 3, and noise increase and deterioration of drive characteristics due to wiring and the like are reduced. Has the advantage. Although FIG. 4A shows the case where there are two light source units, the same applies to the case where there are three or more light source units.
[0048]
FIG. 4B shows a configuration in which the light source 401 and the switching means 404 are integrated as in FIG. 2B. This configuration is composed of three light source units, two recording / reproducing light source units 304 and 405 and one reproducing light source unit 302, as in FIG. The switching means 404 is integrally formed in the light source unit 405 in the vicinity of the light source 401 for recording and reproduction and having a short wavelength. As a result, in addition to the advantages of FIG. 3B, the transmission path between the light source 401 and the switching means 404 can be realized with a shorter and higher quality, and an increase in noise and deterioration of drive characteristics due to wiring and the like can be reduced. Have. The switching means is shown in the form of a switch for the sake of simplicity in the figure, but it is a mechanical switch as well as an electrical switch, such as a switch by a transistor or FET, an analog switch, or the like that can switch a signal from the drive circuit. It goes without saying that the configuration does not matter.
[0049]
In the above configuration example, the plurality of light sources or light source units are configured independently, but the present invention is not limited to this configuration. The same applies to the case where two or more light sources are provided in a single light source unit. In this case as well, the switching means is brought close to a light source for recording and reproduction or a light source having a short wavelength. Needless to say, an excellent effect can be obtained. In addition, although the configuration of the control circuit 108 is not mentioned, when the switching unit and the control circuit 108 are integrally configured, in addition to the above advantages, there is an advantage that the circuit can be further downsized and stabilized. Yes. Further, as in the configuration shown in FIG. 2D of the first embodiment, the same advantage can be obtained when the switching unit 201, the control circuit 108, and the drive circuit 202 are integrally configured.
[0050]
(Embodiment 3)
FIG. 5 is a block diagram of Embodiment 3 of the present invention. Reference numerals 101 and 102 denote light source units having light sources having different wavelengths. The light source unit 101 has a shorter wavelength than the light source unit 102. Reference numeral 103 denotes a BS, 104 denotes a condenser lens, 105 denotes a recording medium, 501 denotes a switching unit, 502 denotes a driving circuit corresponding to the first driving circuit of the present invention, and 503 corresponds to a second driving circuit of the present invention. A driving circuit 108 is a control circuit. Since the optical information recording / reproducing operation is the same as that of the conventional example or the first embodiment, the description thereof is omitted. The switching unit 501 performs an operation of switching the signal from the control circuit 108 to the drive circuit 502 for the light source unit 101 or the drive circuit 503 for the light source unit 102.
[0051]
The present configuration as described above includes a plurality of drive circuits respectively corresponding to the plurality of light source units, and does not include a switching unit between the light source unit and the drive circuit as in the first embodiment. Therefore, there is an advantage that the drive characteristics are not deteriorated due to the internal loss of the switching means.
[0052]
Further, in this configuration, both the driving circuit 502 and the driving circuit 503 can be driven by a single control circuit 108, and the circuit can be reduced and reduced in size compared to the same conventional configuration.
[0053]
Here, as shown in FIG. 5, the switching unit 501 is provided close to the light source unit 101 with a short wavelength so that the transmission path length between the switching unit 501 and the light source unit 101 via the driving unit 502 is shortened. Yes. At this time, the transmission path length between the driving circuit 502 and the light source unit 101 is the same as the transmission path length between the driving circuit 503 and the light source unit 102, and the transmission path length between the switching means 501 and the driving means 502 is switched. The transmission path length between the means 501 and the driving means 503 is made shorter.
[0054]
In general, when a control signal from the control circuit 108 is passed through the switching means 501, noise is mixed in or a delay occurs in the control signal waveform. This phenomenon becomes further disadvantageous due to the influence of wiring or the like when the distance between the switching means 501 and the drive circuit or light source is long. Therefore, it is desirable that the distance between the switching unit 501 and each light source is short, but it is difficult to set the distances between all the light sources and the switching unit 501 short for a plurality of light sources. Therefore, it is desirable to arrange the switching means 501 close to a light source that needs to be driven with higher quality among a plurality of light sources, and to shorten the transmission path length.
[0055]
In the configuration of FIG. 5, when the wavelength of the light source of the light source unit 101 is λ1, the wavelength of the light source of the light source unit 102 is λ2, and the numerical aperture of the objective lens 104 is NA, the size of the spot condensed on the recording medium 105 is The light source unit 101 is proportional to λ1 / NA, and the light source unit 102 is proportional to λ2 / NA. Since the spot of the light source unit with a short wavelength (light source unit 101 in this example) is smaller, it is possible to record / reproduce information with higher density, and the light source is required to have higher quality drive characteristics. .
[0056]
In this configuration, the switching unit 501 is provided in the vicinity of the light source unit 101 having a short wavelength, and the transmission path length is shortened, so that the driving quality of the light source due to the wiring from the switching unit and the switching unit to the light source and the driving circuit is as described above. Can be suppressed. This makes it possible to realize appropriate driving for light sources that require different driving qualities because the wavelengths are different from each other. In this example, the case of two types of wavelengths has been described. However, the same applies to the case of λ1, λ2, λ3... Λn (n = 1, 2,...) And three or more types of wavelengths. Moreover, although the configuration using the light source unit is shown in this example, the present invention is not limited to this configuration, and at least in the arrangement relationship between the plurality of light sources that emit light and the switching means, the wavelength is further increased. It goes without saying that the same effect can be obtained if the shorter light source is arranged close to each other and the length of the transmission path between the light source and the switching means via the corresponding driving means is shortened. At this time, the transmission path length between the driving circuit 502 and the light source unit 101 is made shorter than the transmission path length between the driving circuit 503 and the light source unit 102, and the transmission path length between the switching means 501 and the driving means 502 is switched. The transmission path length between the means 501 and the driving means 503 may be the same.
[0057]
FIG. 6 shows another configuration example. 6A, as in FIG. 5, the light source unit 101 is provided closer to the switching unit 601 closer to the light source unit 102, and the transmission path length between the light source unit 101 and the switching unit 601 is the light source unit. In this configuration, the switching unit 601 and the drive circuit 602 are configured as an integrated unit 603. At this time, similarly to the example of FIG. 5, the transmission path length between the drive circuit 502 and the light source unit 101 and the transmission path length between the drive circuit 503 and the light source unit 102 are the same. The transmission path length between the means 601 and the driving means 602 is made shorter than the transmission path length between the switching means 601 and the driving means 503.
[0058]
In this configuration, in addition to the advantages of the configuration of FIG. 5, the switching unit 601 and the drive circuit 602 are integrally configured, so that the transmission path between the switching unit 601 and the drive circuit 602 is shorter and higher than the configuration of FIG. 5. It can be realized with quality, and has the advantage that noise increase and deterioration of drive characteristics due to wiring and the like are reduced. The integration here is typically implemented by (1) mounting on the same printed circuit board, (2) hybrid IC, (3) LSI or the like.
[0059]
As shown in FIG. 10A, in the unit 603, the transmission path length between the integrated switching unit 601 and the driving unit 602 is the same as the transmission path length between the switching unit 601 and the driving unit 503. The transmission path length between the light source unit 101 and the switching means 601 is switched with the light source unit 102 by making the transmission path length between the circuit 602 and the light source unit 101 shorter than the transmission path length between the drive circuit 503 and the light source unit 102. The transmission path length with the means 601 may be shorter.
[0060]
Furthermore, as shown in FIG. 10B, a configuration may be provided in which a switching unit 609, a unit 612 in which a drive circuit 610 for the light source unit 101 and a drive circuit 611 for the light source unit 102 are integrated. At this time, in the unit 612, the transmission path length between the integrated switching means 609 and the drive circuit 610 is the same as the transmission path length between the switching means 609 and the drive circuit 611, and the transmission path between the drive circuit 610 and the light source unit 101 is the same. By making the length shorter than the transmission path length between the drive circuit 611 and the light source unit 102, the transmission path length between the light source unit 101 and the switching means 609 is made shorter than the transmission path length between the light source unit 102 and the switching means 609. Is desirable.
[0061]
FIG. 6B is a configuration example in which the light source 604 and the drive circuit 607 in the light source unit 608 are integrally formed. In the light source unit 608, a light source 604, a hologram 606 that guides reflected light from the recording medium 105 to the photodetector 605, and a drive circuit 607 that drives the light source 604 are integrally configured. In this configuration, since the light source 604 and the drive circuit 607 are integrated, the wiring between the light source 604 and the drive circuit 607 can be realized with a short and high quality, and the noise increase and the deterioration of the drive characteristics due to the wiring can be reduced. Have. In addition, the structure of the light source unit 608 is an example, and is not limited to this structure.
[0062]
The point of the present invention is that the light source 604 and the drive circuit 607 are integrally formed, and the photodetector 605 and the hologram 606 are not necessarily integrated. Although not shown in the figure, when the configuration satisfying FIGS. 6A and 6B is satisfied at the same time, that is, when the light source, the switching means, and the drive circuit are configured integrally, the advantages of both FIGS. 6A and 6B are obtained. Needless to say, it has.
[0063]
In addition, a configuration that satisfies both FIG. 6B and FIG. 10B at the same time, that is, a light source, a switching unit, and two drive circuits may be configured integrally. In this case, FIG. 6B and FIG. It goes without saying that both the advantages of each configuration of 10 (b) are obtained.
[0064]
The switching means is shown in the form of a switch for the sake of simplicity in the figure, but it is a mechanical switch as well as an electrical switch, such as a switch by a transistor or FET, an analog switch, or the like that can switch a signal from the control circuit. It goes without saying that the configuration does not matter. In addition, in order to avoid the influence of external electrical noise, a signal from the control circuit to the drive circuit may be transmitted using light through an optical fiber, an optical waveguide, or the like. At this time, an optical switch or the like is used as the switching means. In this case, too, the switching means such as the optical switch is provided close to the light source with a short wavelength, and the transmission path length between the switching means and the light source becomes shorter. Needless to say, the present invention has excellent effects.
[0065]
In the above configuration example, the plurality of light sources or light source units are configured independently, but the present invention is not limited to this configuration. The same applies to the case where two or more light sources are provided in a single light source unit. In this case, the excellent effect of the present invention can be obtained by bringing the switching means close to the light source having a short wavelength. Needless to say. In addition, although the configuration of the control circuit 108 is not mentioned, when the switching unit and the control circuit 108 are integrally configured, in addition to the above advantages, there is an advantage that the circuit can be further downsized and stabilized. Yes. Further, as in the configuration shown in FIG. 2D of the first embodiment, the same advantage can be obtained when the switching unit 201, the control circuit 108, and the drive circuit 202 are integrally configured.
[0066]
For the same reason as in the first embodiment, the length of the transmission path from the switching unit for two light sources having different wavelengths is λ1, the short wavelength is L1, the other wavelength is λ2, and the other wavelength is λ2. If the transmission line length to be set is L2, it is desirable to set it under the condition of L1 / L2 ≦ λ1 / λ2. In the case of λ3. It is desirable that L1 / L3 ≦ λ1 / λ3,... L1 / Ln ≦ λ1 / λn be exactly the same.
[0067]
(Embodiment 4)
FIG. 7 is a block diagram of Embodiment 4 of the present invention. In the figure, the same or corresponding parts as in FIGS. Reference numeral 701 denotes a light source unit including the first light source of the present invention, and reference numeral 702 denotes a light source unit including the second light source of the present invention. In FIG. 7A, the light from the two light source units 701 and 702 is condensed on the recording medium 105 via the BS 703 and the condenser lens 104 to record and reproduce information. Here, the light source unit 701 performs an information recording / reproducing operation, and the light source unit 702 performs only an information reproducing operation. At this time, the wavelengths of the light source unit 701 and the light source unit 702 may be different from each other or the same.
[0068]
The switching unit 501 performs an operation of switching the signal from the control circuit 108 to the drive circuit 502 for the light source unit 701 or the drive circuit 503 for the light source unit 702.
[0069]
When the light source unit 701 and the light source unit 702 are compared, the light source unit 702 that performs only the reproduction operation is mostly driven at a constant output, but the light source unit 701 that performs the recording operation is modulated at a high speed during recording. Therefore, high quality driving characteristics are required as compared with the light source unit 702. That is, as in the second embodiment, a light source that performs only reproduction reproduces information by performing DC light emission with a constant light output, but a light source that performs recording needs to modulate the light source according to the recorded information. is there. The quality of the modulation waveform of the light source by the drive circuit largely depends on the L component and the C component of the transmission path from the drive circuit to the light source, but the reproduction light source that emits DC light is not significantly affected by the transmission path. For this reason, it is desirable to set the length of the transmission path of the recording light source short.
[0070]
In this configuration, as shown in FIG. 7A, the switching unit 501 is provided in the vicinity of the light source unit 701 for recording and reproduction, and a transmission line between the switching unit 501 and the light source unit 701 via the driving unit 502. Since the length is shorter than the transmission line length between the switching unit 106 and the light source unit 702 via the driving unit 503, the driving quality of the light source unit 701 is deteriorated due to the transmission path from the switching unit or the switching unit to the light source. The recording light source unit 701 and the reproduction light source unit 702 can be driven satisfactorily with a single control circuit 108.
[0071]
Further, in this configuration, a plurality of drive circuits respectively corresponding to the plurality of light source units are provided, and no switching means is provided between the light source unit and the drive circuit as in the second embodiment. Therefore, there is an advantage that the drive characteristics are not deteriorated due to the internal loss of the switching means. Furthermore, this configuration makes it possible to drive both of the drive circuits 502 and 503 with a single control circuit 108, and the circuit can be reduced and miniaturized compared to a similar conventional configuration.
[0072]
FIG. 7B shows another configuration example, in which a light source unit 704 for recording and reproduction is further provided in the configuration of FIG. Here, it is assumed that the light source unit 702 is for reproduction, the light source unit 701 and the light source unit 704 are for recording and reproduction, and the light source unit 701 and the light source unit 704 have different wavelengths, and the light source unit 701 has a shorter wavelength than the light source unit 704. The three light source units 701, 702, and 704 are selectively driven via the switching unit 707 with drive signals from the single control circuit 108. The switching unit 707 is provided closer to the recording / reproducing light source units 701 and 704 than the reproducing light source unit 702, and the transmission line length between the switching unit 707 and the light source units 701 and 704 is the switching unit 707. And the transmission line length between the light source unit 702 and the light source unit 702 is shorter.
[0073]
Further, the switching unit 707 is provided closest to the light source unit 701 having a shorter wavelength among the recording / reproducing light source units 701 and 704, and the transmission line length between the switching unit 707 and the light source unit 701 is the switching unit. The transmission line length between 707 and the light source unit 704 is shorter. As a result, the same effect as in the first embodiment is obtained.
[0074]
With this configuration, the recording / reproducing light source has better driving characteristics than the reproducing light source, and the recording / reproducing light source has a shorter wavelength and is better than the light source unit 701 that requires better driving characteristics. It has an excellent effect that drive characteristics can be realized. Although FIG. 7 illustrates the case where there are two or three light source units, the same is true when there are four or more light source units.
[0075]
FIG. 8 shows another configuration example. In the configuration of FIG. 8A, the switching means 601 and the drive circuit 602 are integrally configured as in the third embodiment of FIG. Needless to say, the switching means 601 is provided close to the recording / reproducing light source unit 701 as in FIG. 7 so as to shorten the transmission path length with the light source unit 701. In this configuration, in addition to the advantages of FIG. 7, the transmission path between the switching means 601 and the drive circuit 602 is shorter than the configuration of FIG. 7 and can be realized with high quality, and noise increase and deterioration of drive characteristics due to wiring and the like are reduced. Has the advantage of. Although FIG. 8A shows the case where there are two light source units, the same applies to the case where there are three or more light source units. FIG. 8B shows a configuration in which a light source 801 and a drive circuit 804 are integrated as in FIG. 6B. This configuration is composed of three light source units of two recording / reproducing light source units 805 and 704 and one reproducing light source unit 702 as in FIG. 7B. The drive circuit 804 is integrally formed in the light source unit 805 in the vicinity of a light source 801 for recording and reproduction and having a short wavelength. As a result, in addition to the advantages of FIG. 7B, the transmission path between the light source 801 and the drive circuit 804 can be realized with a shorter and higher quality, and an increase in noise and deterioration of drive characteristics due to wiring and the like can be reduced. Have.
[0076]
Although not shown, the switching means and the plurality of drive circuits are integrated in each configuration of FIGS. 8A and 8B as well as the configuration shown in FIG. 10B of the third embodiment. You may make it comprise. Needless to say, this case also has the same effect as the configuration of FIG.
[0077]
The switching means is shown in the form of a switch for the sake of simplicity in the figure, but it is a mechanical switch as well as an electrical switch, such as a switch by a transistor or FET, an analog switch, or the like that can switch a signal from the control circuit. It goes without saying that the configuration does not matter. In addition, in order to avoid the influence of external electrical noise, a signal from the control circuit to the drive circuit may be transmitted using light through an optical fiber, an optical waveguide, or the like. At this time, an optical switch or the like is used as the switching means. In this case as well, it is needless to say that the switching means such as the optical switch has the excellent effect of the present invention by being close to the light source having a short wavelength.
[0078]
For the same reason as in the first embodiment, the length of the transmission path from the switching means for two light sources having different wavelengths, such as the light source units 702 and 704, is λ1, and the transmission path length is set to λ1. If L1, the other wavelength is λ2, and the corresponding transmission line length is L2, it is desirable to set under the condition of L1 / L2 ≦ λ1 / λ2, and there are three or more light sources, and the wavelengths are sequentially from wavelength λ2. Also in the case of longer λ3 ·· λn, it is desirable that the relationship is exactly the same as L1 / L3 ≦ λ1 / λ3, ··· L1 / Ln ≦ λ1 / λn.
[0079]
In the above configuration example, a plurality of light sources or light source units are configured independently, but the configuration is not limited to this configuration. The same applies to the case where two or more light sources are provided in a single light source unit. In this case as well, the switching means is brought close to a light source for recording and reproduction or a light source having a short wavelength. Needless to say, an excellent effect can be obtained. In addition, although the configuration of the control circuit 108 is not mentioned, when the switching unit and the control circuit 108 are integrally configured, in addition to the above advantages, there is an advantage that the circuit can be further downsized and stabilized. Yes. Further, as in the configuration shown in FIG. 2D of the first embodiment, the same advantage can be obtained when the switching unit 201, the control circuit 108, and the drive circuit 202 are integrally configured.
[0080]
In each of the above embodiments, the optical pickup has been described. However, the present invention modulates the demodulation means for demodulating the signal obtained from the optical pickup of the present invention and the signal output to the optical pickup. You may implement | achieve as an information processing apparatus provided with the modulation means.
[0081]
【The invention's effect】
As described above, the present invention provides an excellent effect of driving a plurality of light sources with a small circuit amount and realizing high-performance driving characteristics.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of an information processing apparatus according to a first embodiment of the present invention.
FIG. 2A is a diagram showing another configuration example according to the first embodiment of the present invention.
(B) The figure which shows the other structural example by Embodiment 1 of this invention.
(C) The figure which shows the other structural example by Embodiment 1 of this invention.
FIG. 3A is a configuration diagram of an information processing apparatus according to a second embodiment of the present invention.
(B) Configuration diagram of information processing apparatus according to Embodiment 2 of the present invention
FIG. 4A is a diagram showing another configuration example according to the second embodiment of the present invention.
(B) The figure which shows the other structural example by Embodiment 2 of this invention.
FIG. 5 is a configuration diagram of an information processing apparatus according to a third embodiment of the present invention.
FIG. 6A is a diagram showing another configuration example according to the third embodiment of the present invention.
(B) The figure which shows the other structural example by Embodiment 3 of this invention.
FIG. 7A is a configuration diagram of an information processing apparatus according to a fourth embodiment of the present invention.
(B) Configuration diagram of information processing apparatus according to Embodiment 4 of the present invention
FIG. 8A is a diagram showing another configuration example according to the fourth embodiment of the present invention.
(B) The figure which shows the other structural example by Embodiment 4 of this invention.
FIG. 9 is a configuration diagram of a conventional optical pickup.
FIG. 10A is a diagram showing another configuration example according to the third embodiment of the present invention.
(B) The figure which shows the other structural example by Embodiment 3 of this invention.
[Explanation of symbols]
105,905 recording medium
104,904 condenser lens
101,102,208,209,301,302,304,405,608,701,702,704,805,901,902 Light source unit
103,303,305,306,703,705,706,903 Beam splitter (BS)
106, 201, 211, 207, 210, 307, 404, 501, 601, 609, 707 switching means
107, 202, 502, 503, 504, 602, 607, 610, 611, 804, 906, 908 drive circuit
108,907,909 control circuit
205, 402, 605, 802 photodetector
206, 403, 606, 803 hologram
203, 212, 603, 612 units

Claims (3)

An optical pickup for recording and reproducing information on each of a plurality of recording media,
A plurality of light sources corresponding to the plurality of recording media;
A plurality of drive circuits for driving each of the plurality of light sources;
Switching means for switching and outputting an external signal to any of the drive circuits;
A control circuit for controlling the drive circuit and the switching means,
The plurality of drive circuits and the switching unit are configured integrally.
The length of the transmission path between each of the plurality of drive circuits and the switching means is substantially the same,
And the length of the transmission path between the switching means and the plurality of light sources, the optical pickup is shorter shorter light source wavelength among the plurality of light sources. A first light source for performing the information record to the recordable recording medium,
A second light source for reproducing information from a recording medium on which information is recorded ;
A first drive circuit for driving the first light source;
A second drive circuit for driving the second light source;
Switching means for switching and outputting an external signal to the first drive circuit or the second drive circuit;
A control circuit for controlling the first drive circuit, the second drive circuit, and the switching means;
The first drive circuit, the second drive circuit, and the switching unit are configured integrally.
The length of the transmission path between the first drive circuit and the switching means and the length of the transmission path between the second drive circuit and the switching means are substantially the same,
And the length of the transmission path between said switching means and the first light source, the switching means and the second optical pickup is shorter than the length of the transmission path with the light source. An optical pickup according to claim 1 or 2 ,
Demodulation means for demodulating a signal obtained from the optical pickup;
An information processing apparatus comprising modulation means for modulating a signal output to the optical pickup.

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